TFIIH mutations can impact on translational fidelity of the ribosome

TFIIH is a complex essential for transcription of protein-coding genes by RNA polymerase II, DNA repair of UV-lesions and transcription of rRNA by RNA polymerase I. Mutations in TFIIH cause the cancer prone DNA-repair disorder xeroderma pigmentosum (XP) and the developmental and premature aging disorders trichothiodystrophy (TTD) and Cockayne syndrome (CS). 50% of TTD cases are caused by TFIIH mutations. Using TFIIH mutant patient cells from TTD and XP subjects we can show that the stress-sensitivity of the proteome is reduced in TTD, but not in XP. Using three different methods to investigate the accuracy of protein synthesis by the ribosome, we demonstrate that translational fidelity of the ribosomes of TTD, but not XP cells, is decreased. The process of ribosomal synthesis and maturation is affected in TTD cells and can lead to instable ribosomes. Isolated ribosomes from TTD patients show an elevated error rate when challenged with oxidized mRNA, explaining the oxidative hypersensitivity of TTD cells. Treatment of TTD cells with N-acetyl cysteine normalized the increased translational error-rate and restored translational fidelity. Here we describe a pathomechanism that might be relevant for our understanding of impaired development and aging-associated neurodegeneration

Loss of Proteostasis Is a Pathomechanism in Cockayne Syndrome

Retarded growth and neurodegeneration are hallmarks of the premature aging disease Cockayne syndrome (CS). Cockayne syndrome proteins take part in the key step of ribosomal biogenesis, transcription of RNA polymerase I. Here, we identify a mechanism originating from a disturbed RNA polymerase I transcription that impacts translational fidelity of the ribosomes and consequently produces misfolded proteins. In cells from CS patients, the misfolded proteins are oxidized by the elevated reactive oxygen species (ROS) and provoke an unfolded protein response that represses RNA polymerase I transcription. This pathomechanism can be disrupted by the addition of pharmacological chaperones, suggesting a treatment strategy for CS. Additionally, this loss of proteostasis was not observed in mouse models of CS. Cockayne syndrome is a devastating childhood progeria. Here, Alupei et al. show that cells from CS patients have reduced translation accuracy and elevated ROS, leading to generation of unstable proteins and activation of ER stress. Reducing ER stress by chemical chaperones in these cells rescues RNA polymerase I activity and protein synthesis

Angiogenin released from ABCB5+ stromal precursors improves healing of diabetic wounds by promoting angiogenesis

Severe angiopathy is a major driver for diabetes-associated secondary complications. Knowledge on the underlying mechanisms essential for advanced therapies to attenuate these pathologies is limited. Injection of ABCB5+ stromal precursors at the edge of nonhealing diabetic wounds in a murine db/db model, closely mirroring human type 2 diabetes, profoundly accelerates wound closure. Strikingly, enhanced angiogenesis was substantially enforced by the release of the ribonuclease angiogenin from ABCB5+ stromal precursors. This compensates for the profoundly reduced angiogenin expression in nontreated murine chronic diabetic wounds. Silencing of angiogenin in ABCB5+ stromal precursors before injection significantly reduced angiogenesis and delayed wound closure in diabetic db/db mice, implying an unprecedented key role for angiogenin in tissue regeneration in diabetes. These data hold significant promise for further refining stromal precursors–based therapies of nonhealing diabetic foot ulcers and other pathologies with impaired angiogenesis

Newly defined ATP-binding cassette subfamily B member 5 positive dermal mesenchymal stem cells promote healing of chronic iron-overload wounds via secretion of interleukin-1 receptor antagonist

In this study, we report the beneficial effects of a newly identified dermal cell subpopulation expressing the ATP‐binding cassette subfamily B member 5 (ABCB5) for the therapy of nonhealing wounds. Local administration of dermal ABCB5+‐derived mesenchymal stem cells (MSCs) attenuated macrophage‐dominated inflammation and thereby accelerated healing of full‐thickness excisional wounds in the iron‐overload mouse model mimicking the nonhealing state of human venous leg ulcers. The observed beneficial effects were due to interleukin‐1 receptor antagonist (IL‐1RA) secreted by ABCB5+‐derived MSCs, which dampened inflammation and shifted the prevalence of unrestrained proinflammatory M1 macrophages toward repair promoting anti‐inflammatory M2 macrophages at the wound site. The beneficial anti‐inflammatory effect of IL‐1RA released from ABCB5+‐derived MSCs on human wound macrophages was conserved in humanized NOD‐scid IL2rγ null mice. In conclusion, human dermal ABCB5+ cells represent a novel, easily accessible, and marker‐enriched source of MSCs, which holds substantial promise to successfully treat chronic nonhealing wounds in humans

Collisions and protein aggregations ahead: how aging affects ribosomal elongation dynamics

A recent study by Stein et al.1 deciphers how altered ribosomal elongation dynamics in aging contribute to a loss of protein homeostasis, proteostasi

THE PREVALENCE OF HELMINTH PARASITES IN AMPHIBIA FROM SAMASPUR BIRD SANCTUARY, A RAMSAR SITE IN UTTAR PRADESH, INDIA

Amphibian hosts from the Samaspur Bird Sanctuary were investigated for the study of helminth parasites. A total of four species of hosts were studied and revealed the infection of five species of helminth parasites. In the study area, Euphlyctis cyanophlyctis harboured four species namely, Cosmocerca sp., Rhabdias sp., Ganeo tigrinum and Pleurogenoides gastroporus with prevalence of 0.33% each and intensity of 1.33, 1.66, 0.33 and 2 respectively. While, Duttaphrynus stomaticus was infected by a single species, Cosmocerca kalesari with prevalence of 1%, intensity 4-6 and abundance of 4.66. No infection was found in Polypedates maculatus and Hoplobatrachus tigerinus. This is the first study on the helminth parasites in Amphibian hosts from Samaspur Bird Sanctuary, a Ramsar site in Uttar Pradesh

A query based formal security analysis framework for enterprise LAN

The complex security constraints in present day enterprise networks (wired or wireless LAN) demand formal analysis of security policy configurations deployed in the network. One of the needs of a network administrator is to evaluate network service accesses through appropriate queries. The security policy is represented as set of rules for allowing/denying various service accesses through the network and may have spatio-temporal access constraints. The role-based access control (RBAC) mechanisms can also be deployed to strengthen the security perimeter. This paper presents a query based security analysis framework for enterprise networks. It evaluates various service access queries which returns the set of services allowed between specified source and destination network zones under spatio-temporal RBAC constraints. The framework includes (i) a distributed network security policy management system; (ii) a formal model for representing the network topology and STRBAC policy configurations; (iii) a query processing module for analyzing the access model with various queries. The queries are evaluated through a SAT based decision procedure. The framework is applicable for both wired and wireless networks

Biological activities of crude extracts and chemical constituents of Bael, <i style="">Aegle marmelos</i> (L.) Corr.

849-861 Bael (Aegle marmelos (L.) Corr.) is an important medicinal plant of India. Leaves, fruits, stem and roots of A. marmelos have been used in ethno medicine to exploit its’ medicinal properties including astringent, antidiarrheal antidysenteric, demulcent, antipyretic and anti-inflammatory activities. Compounds purified from bael have been proven to be biologically active against several major diseases including cancer, diabetes and cardiovascular diseases. Preclinical studies indicate the therapeutic potential of crude extracts of A. marmelos in the treatment of many microbial diseases, diabetes and gastric ulcer. This review covers the biological activities of some isolated chemical constituents of A.marmelos and preclinical studies on some crude extracts and pure compounds to explore novel bioactive compounds for therapeutic application. </smarttagtype

Effect of melatonin on secreted and induced matrix metalloproteinase-9 and -2 activity during prevention of indomethacin-induced gastric ulcer

Matrix metalloproteinases (MMPs) maintain the crucial role in physiological turnover of extracellular matrix (ECM) proteins in gastric tissues. However, a little is known about the relationship of MMPs with ECM degradation during gastric ulceration and ECM remodeling during healing. Our objective was to investigate the effect of melatonin (N-acetyl-5 methoxytryptamine) on the regulation of MMP-9 and MMP-2 activity during prevention of gastric ulcer. In the present study, biochemical and zymographic methods were used to analyze the mechanism of melatonin in indomethacin-induced gastric ulcer in a rat model. Our studies reveal that melatonin dose-dependently downregulates the expression and secretion of pro-MMP-9 which is induced (approximately 10-fold) during indomethacininduced gastric ulceration. Furthermore, melatonin prevents gastric ulceration in a dose-dependent manner through upregulation (approximately two- to threefold) of both pro-MMP-2 and active MMP-2 at the level of induction as well as secretion. It also prevents gastric ulcers by blocking glutathione depletion and lipid peroxidation in cytosolic and microsomal fractions. The novel findings of this study are attributed to the attenuation of the pro-MMP-9 and increase of MMP-2 activity by pretreatment with melatonin. The finding defines one of the MMP-mediated pathways for melatonin’s action in gastric ulcer